If one takes all the luminous matter that can be seen in the galaxy (stars, gas and dust) and predicts the rotation curve using the well-known laws of gravitational physics discovered by Newton, the speed of stars should decrease in a predictable manner the father away they are from the center of the galaxy.

Looking at the rotation curves of galaxies, however, astronomers have found that rotational speeds do not fall off with distance as expected. Instead, the curves level off, and stars far away from the center of the galaxy move faster than expected. The only way to account for this observation is that a large quantity of matter which cannot be seen--dark matter--exists in the galaxies. To explain the astronomical observations, this dark matter must surround the galaxy in a large, spherical distribution known as a galactic halo.

Theoretical candidates for dark matter have been divided into two groups, dubbed MACHOs and WIMPs. The existence of MACHOs (Massive Astrophysical Compact Halo Objects) has been confirmed experimentally--recently in our own Milky Way galaxy. The nature and origin of MACHOs are currently a matter of great speculation and debate, but their masses and distributions have been measured by their gravitational effects. Proposals for candidate MACHOs include primordial black holes, as well as some types of new, exotic astrophysical objects whose properties have yet to be properly described.

The mass of the average MACHO appears to be around half that of our sun. But the number of MACHOs, although large, still appears to be too small to account for all the dark matter suspected to be present in the galactic halo. This fact has led astrophysicists to speculate on other possible dark matter forms, such as WIMPs.

WIMPs (Weakly Interacting Massive Particles) are exotic, massive elementary particles that do not interact strongly with matter. (Hence they have not been interacting with our detectors so we have not detected them yet). Because WIMPs do have mass, and there would be great numbers of them, their individually weak but collectively strong gravitational effects could account for part of the impact that dark matter has on the rotation curves of galaxies.

One possible class of candidates for dark matter are neutrinos. Just announced experiments using a detector in Japan, called the Super-Kamiokande, indicated that neutrinos may indeed have mass. Already, cosmologists are re-examining currently accepted theories.

Dark matter is known to exist through the gravitational effect it exerts on visible matter in the universe. As our astrophysical experiments become more sophisticated, and our understanding of large gravitational systems (galaxies and clusters of galaxies) grows, we will answer more of the questions that have faced us years.

New questions about the nature and origin of dark matter are continually being put forward, ensuring that this field will be exciting, dynamic and at the forefront of astrophysical research for years to come.

31 Comments

1. 1. Jarisha 08:30 PM 2/1/09

   I thought that this article was very one-sided. No dark matter has ever been seen and there is at least one viable alternate theory, which is not mentioned here. Dark matter might not exist at all: http://www.physorg.com/news85310822.html

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2. 2. Costas Papaliolios 11:08 AM 5/2/09

   
   
   Why main stream scientists want to believe that out there is only one kind of dark energy and dark matter and not many? (Or more appropriately named unknown instead of dark)
   
   Costas Papaliolios

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3. 3. Timray 11:10 PM 5/10/09

   are we in global Warming or are we in another Ice Age....ahhhh science

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4. 4. Xearo in reply to Costas Papaliolios 01:14 AM 5/12/09

   The article i just read was naming off different explanations for what the dark matter is. We should keep an open mind and remember that it might not be just one possibility. It might be most of them if not all.

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5. 5. Xearo in reply to Costas Papaliolios 01:31 AM 5/12/09

   The article i just read had different explanations for what the dark matter is. We should keep an open mind and remember that it might not be just one possibility. It could be most of the possibilities if not all. (A lot of people associate darking and unkowing. That's probably why they call it dark matter.)

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6. 6. Xearo 01:35 AM 5/12/09

   The article i just read had different explanations for what the dark matter is. We should keep an open mind and remember that it might not be just one possibility. It could be most of the possibilities if not all. (A lot of people associate darking and unkowing. That's probably why they call it dark matter.)

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7. 7. Xearo 01:37 AM 5/12/09

   The article i just read had different explanations for what the dark matter is. We should keep an open mind and remember that it might not be just one possibility. It could be most of the possibilities if not all. (A lot of people associate darking and unkowing. That's probably why they call it dark matter.)

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8. 8. doylec 10:06 PM 6/19/09

   Perhaps dark matter is simply ordinary(or perhaps extraordinary) matter that is just too nebulous to detect, that fills the universe. If so, no matter how nebulous it may be, it would still cause some drag on objects moving through it. At low velocities it might be undectable, but at high velocities over a long period of time it should be significent.
   See The Pioneer Effect.

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9. 9. whatifimright 08:51 PM 8/6/09

   I have read several theories on dark matter and dark energy but was never really sold on the ideas presented. What if dark matter or dark energy is simply negative energy? Every article I read consists of tests to detect energy being emited. What if dark matter is the opposite? Could dark matter actually be simular to that of a black hole? (scaled down a bit ) Could dark matter be the oppisite of radiant (positive) energy? (yeng and the yang,,,,for every action there is an equal and oppisite reaction?) Are we able to detect energy before it is consumed by a black hole? and if so can this method be applied to the detection of dark matter?(that is ...detect energy consumed vs.energy emitted)Might the hadron collider provide more answers ??? and wouldn't it be cool if someone like me was the one that got it right ? lol

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10. 10. Nick 02:09 AM 8/28/09

    Unfortunately dark matter as based on galaxy rotation speeds is the result of nothing but a mathematical mistake.
    When done properly, it is easy to find the mass distribution in the plane of a galaxy that will cause the measured rotation speeds, and no dark-matter spheres are needed. This should be obvious if one considers the problem from the other side.
    
    Representing a galaxy in the standard way as a series of concentric rings in a plane, and knowing the gravitational effect of a single ring, the radial acceleration (and thus rotation speeds) can be easily computed for an arbitrary radial mass distribution in the plane of the galaxy. I call this the forward problem. This is easy using a computer with a finite number of rings, not easy at all if one tries to do it analytically with continuous mass distribution. However it has been correctly done analytically for a continuous exponential radial mass loading. (Freeman, ApJ 160, 811F, 06/1970).
    
    For the reverse problem, mass distribution from rotation speeds, all the data needed are there and the solution is a simple matrix operation. With a reasonable estimate for the galxy thickness distribution, reasonable quesses can also be found for the density distribution. More details are in Nicholson, astro-ph/0309762 v2. The equations reduce to:
    
    a(i,j) smd(i)=A(i), forward problem
    smd(i)=ainv(i,j) A(i), reverse problem
    
    where a(i,j)=acceleration effects of ring j of unit smd on ring i
    A(i) = acceleration at ring i
    smd(j)=surface mass density of ring j (mass per unit area)
    
    The mathematical mistake can be seen in the analysis in the most quoted origin for dark matter, Van Albada et al (APJ 295, 8/15/1985). They assumed that since the surface light seemed to fall off exponentially with radius for galaxies that the mass distribution did the same, and thus Freeman's solution had to hold for all galaxies. When it was found that
    measured rotation speeds at medium and large radii were much larger than Freeman's results. they needed some extra mass that would make up the difference. By assuming a series of spherical shells with adjustable densities, they could get approximations to the measured data. Thus dark matter was invented to get answers to a problem.
    
    
    

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11. 11. venkataramanaravi 10:39 AM 9/8/09

    Energy emitted from Sun, is the result of Anti Gravitational Energy of the Planets in the Galaxy which is termed as Solar Food (Dark Energy). It is the Chemical Reaction of Solar Food that releases Solar Energy and the Sound that is released during this process is the Universal Music.
    

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12. 12. venkataramanaravi 10:40 AM 9/8/09

    Energy emitted from Sun, is the result of Anti Gravitational Energy of the Planets in the Galaxy which is termed as Solar Food (Dark Energy). It is the Chemical Reaction of Solar Food that releases Solar Energy and the Sound that is released during this process is the Universal Music.
    

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13. 13. venkataramanaravi 10:41 AM 9/8/09

    Energy emitted from Sun, is the result of Anti Gravitational Energy of the Planets in the Galaxy which is termed as Solar Food (Dark Energy). It is the Chemical Reaction of Solar Food that releases Solar Energy and the Sound that is released during this process is the Universal Music.
    

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14. 14. soxfan 05:33 PM 9/29/09

    Now, I will readily admit that I am a relative neophyte when it comes to the physics of the Universe ... But is it possible that there is some property of the place that existed BEFORE our universe so luckily winked into existence (let's call this pre-universe place the Nothing... sorry Never-Ending Story fans) that pulls on anything that has mass? Since nothing ever had mass before the Big Bang or dimensional collision or whatever started this whole party, this Nothing never had anything to pull on. Then the singularity (or whatever) shows up, and the Nothing starts pulling as soon as soon as it appears. It isn't a rapid expansion at first (so much gravity fights so much Nothing-pull), but the Nothing-pull is too great and the expansion begins, accelerating everything into its Nothingness. Further, things that are nearer to the edge of the universe are being pulled at a greater acceleration than things closer to the center due to the increase of proximity to other forms of mass (and gravity) as you get closer to the center of the universe. Thus, the universe is increasing in its expansion into the Nothing forever.
    Even with respect to the stars near the edge of individual galaxies, wouldn't these stars be pulled slightly away from the rotating center much like water on Earth causing the tides? (If this Nothing-pull is so great, once a star got too far from its own galaxy, could it fall under greater influence of the pull?)
    Could someone please blow up this theory (or does it make some sense, just that nobody has ever looked at it this way). I know we're talking WAY outside the box here (hell, I'm talking about a potential force from outside the universe), but it does seem to me that the dark-matter theory could be a bit univer-centric... And I'm more of a fan of pull than push anyway (has there ever been any forces known to do any real pushing in the universe?). I'd love to hear the reasoning behind a theory that makes me believe that anything is really doing any pushing.
    Further, if this dark matter really exists, would light be altered as it travels through it when we are observing objects out in the universe. Has anyone accounted for what must be the uniformity of dark matter that must exist (and would be hard to believe) for every view in every direction to be affected in the same way in what I think most would agree is not a homogeneous universe?
    
    Keith Landry

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15. 15. soxfan 05:34 PM 9/29/09

    Now, I will readily admit that I am a relative neophyte when it comes to the physics of the Universe ... But is it possible that there is some property of the place that existed BEFORE our universe so luckily winked into existence (let's call this pre-universe place the Nothing... sorry Never-Ending Story fans) that pulls on anything that has mass? Since nothing ever had mass before the Big Bang or dimensional collision or whatever started this whole party, this Nothing never had anything to pull on. Then the singularity (or whatever) shows up, and the Nothing starts pulling as soon as soon as it appears. It isn't a rapid expansion at first (so much gravity fights so much Nothing-pull), but the Nothing-pull is too great and the expansion begins, accelerating everything into its Nothingness. Further, things that are nearer to the edge of the universe are being pulled at a greater acceleration than things closer to the center due to the increase of proximity to other forms of mass (and gravity) as you get closer to the center of the universe. Thus, the universe is increasing in its expansion into the Nothing forever.
    Even with respect to the stars near the edge of individual galaxies, wouldn't these stars be pulled slightly away from the rotating center much like water on Earth causing the tides? (If this Nothing-pull is so great, once a star got too far from its own galaxy, could it fall under greater influence of the pull?)
    Could someone please blow up this theory (or does it make some sense, just that nobody has ever looked at it this way). I know we're talking WAY outside the box here (hell, I'm talking about a potential force from outside the universe), but it does seem to me that the dark-matter theory could be a bit univer-centric... And I'm more of a fan of pull than push anyway (has there ever been any forces known to do any real pushing in the universe?). I'd love to hear the reasoning behind a theory that makes me believe that anything is really doing any pushing.
    Further, if this dark matter really exists, would light be altered as it travels through it when we are observing objects out in the universe. Has anyone accounted for what must be the uniformity of dark matter that must exist (and would be hard to believe) for every view in every direction to be affected in the same way in what I think most would agree is not a homogeneous universe?
    
    Keith Landry

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16. 16. asghar68 08:37 AM 12/3/09

    Yes dark matter (unknown to human) is there. we are always trying to negate the truth. God is invisible and his angles as well. In the same way there is a universe much bigger than that we know but that is invisible.......

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17. 17. lumimi2003 03:36 PM 12/23/09

    Please click here :
    
    http://lumi.chez-alice.fr/anglais/mystmass.htm
    
    

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18. 18. DKMNOT 09:14 PM 12/31/09

    The more reasonable explanations are:
    
    1. The estimate of the mass of the galaxy is based on an erroneous assumption.
    
    2. Our understanding of the red /blue shift is flawed (a little genuinely objective thought leads to the acceptance that the "standard" interpretation of a red or blue shift violates relativity).
    
    Dark matter is an unfortunate "shortcut" that has arisen because the current scientific community is too arrogant and does not have the courage to challenge "accepted" concepts even when faced with an absurd result.

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19. 19. lumimi2003 03:19 AM 1/4/10

    Also, I thought that this article was very one-sided. No dark matter has ever been seen and there is at least one viable alternate theory, which is not mentioned here. Dark matter might not exist at all:
    http://lumi.chez-alice.fr/anglais/mystmass.htm

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20. 20. lumimi2003 03:21 AM 1/4/10

    Also I thought that this article was very one-sided. No dark matter has ever been seen and there is at least one viable alternate theory, which is not mentioned here. Dark matter might not exist at all:
    http://lumi.chez-alice.fr/anglais/mystmass.htm
    

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21. 21. Byron 09:42 AM 1/13/10

    
    Since speed involves time, is the data that is collected "time corrected" to account for the finite speed of light? It is probably a silly question, but I do wonder if the astronomers account for the time delay of radiation coming from different parts of a galaxy.

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22. 22. nissansilviafan in reply to doylec 03:04 PM 1/25/10

    That sounds a lot like Aristotle's fifth element, the Ether. Scientists have been trying to figure out what that is for over 1800 years, and have only made a few discoveries such as how light is a transverse wave and not a longitudinal wave as previously thought.
    But who knows what makes up the rest of space? It could be nothingness, something unseeable, or possibly divine, but I doubt we will know within our lifetime.

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23. 23. JK791930 01:41 PM 3/10/10

    Dark matter: The invisible force
    The temperature of space may hold the key to solve problem of missing matter
    Dark matter, the "invisible" mass that scientists believe makes up a large part of the universe, can be explained as being mass that is at one end of a cooling process that all matter goes through.
    This cooling theory is based on the idea that mass is a permanent entity, and the energy associated with mass is necessary only for matter that can be detected. Mass without such energy is the invisible dark matter.
    The mass is all there -- but what kind of matter it becomes depends on temperature. Once matter reaches zero degrees Kelvin, it ceases to be detectable  and becomes part of the missing mass that scientists cannot account for.
    Imagine that the universe is composed of matter that is always in the process of moving from an invisible, dark-matter state into an energized  and detectable -- state and then back again.
    Through the natural process of cooling, the process where active matter radiates thermal energy till all energy charge is spent. The subatomic particles of an atom  the protons, neutrons and electrons -- will use up the available energy and eventually reach 0K. When the matter reaches 0K, the mass of subatomic particles enter a neutral, undetectable state, having no particles in motion and therefore no thermal radiation.
    In that environment, the mass of an atom remains. And while it would lack any thermal energy, it would maintain a gravitational force, and thus a potential source of Kinetic energy.
    Instead of the term "dark matter," consider this to be a "neutral mass." It is mass in a stable state, that requires an occurrence involving extremely high energy acting upon the mass to set the subatomic particles in motion and recreate the atomic structure.
    The neutral mass has a gravitational force and ability to attract other masses, producing kinetic energy with a cumulative effect that could be quite substantial.
    A large concentration of this neutral mass would manifest as a black hole. Two black holes colliding -- bodies of dense, compacted neutral mass, each with enormous gravitational force and kinetic energy -- could yield an explosive action that would re-energize the atomic structure. That could take the form of new galaxies, which in turn are
    the elementary building blocks of the universe.
    

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24. 24. deweyb 12:02 PM 3/21/10

    Why not call it by its real name - aether. Dark matter is essentially the medium for the carrier of electromagnetism (aether) but dark matter has a very slight mass due to its proximity to matter which slows down the basic spin of pure aether.

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25. 25. Douglas Lipp 09:10 PM 4/13/10

    The Coney Island Green Theory explains Dark Matter, Dark Energy, quantifies a mass unit into a spatial quantity, combines the spacetime continuum with the mass-energy equation, solves Red Shift anomolies, and offers a solution to the Horizon Problem (though the later is not in the theory, one can extrapolate the solution out of it, namely that the temperature homogeneity is self promulgated from the MT=S manifestation), and yet, the initial postulate still remains "Believe it or Not"!

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26. 26. waro 10:52 PM 4/26/10

    Dark matter is discussed as ploy to avoide having the try to explain where is the source of all the energies that exist in the Universe. .

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27. 27. dpsspace 11:10 AM 8/11/10

    multiple universes as stated would account for the lack of the proposed gravitational force ... when the Milky Way finally completes its plunge into the super massive black hole at its center the singularity will expand releasing all of our matter as energy in a new space...which will collapse into H and eventually form another so called infinite universe and so on. There is as much proof for this as for dark energy and matter.

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28. 28. waro 11:14 AM 8/12/10

    Why is it so difficult for scientists to to admit, that if most of the energy available in the Universe is not visible or measurable , then this infinte quantity of energy must exist in a "potential" form. within the Aether of the Universe..
    All energies that are visible and measurable have already moved from the potential to the real condition, and further more this phenomena was a "Simultanious transition" therefore totally unobservable by any living creature.

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29. 29. jtdwyer 01:27 PM 8/20/11

    The definitive answer to the title question is that the existence of dark matter is a hypothesis.
    
    The requirement for dark matter actually became established within the scientific community during the mid-1970s when astronomers, notably Vera Rubin, clearly demonstrated that spiral galaxies do not rotate like the Solar system. They had presumed that spiral galaxies must comply with the laws of planetary motion - specifically that Keplerian rotational curves (illustrating that the rotational velocities of planets orbiting the Sun diminish as their distance from the Sun increases) must also apply to individual stars within the discs of spiral galaxies.
    
    That stars in the discs of spiral galaxies' velocities remained relatively flat as their distance from the galactic center increased was taken as convincing evidence that there must be some additional undetected mass accelerating the disc periphery and preventing peripheral stars from being expelled by their greater than expected velocities.
    
    It should have been simply considered that, as Newton proved in his Principia, Kepler's equations, empirically derived from observation of the Solar system, were reliant on that system's distribution of mass (the Sun contains 99.86% of total system mass) and that disperse small body planets generally do not perturb one another's orbits.
    
    From the perspective of a star at the periphery of a distributed mass spiral galaxy, its motion is not primarily determined by any center of mass located perhaps a hundred thousand light years away but more by much nearer comparably massive objects that almost surround it. The discs of spiral galaxies rotate as a loosely bound structure, not as individual stars independently orbiting any central mass (some large, well formed spiral galaxies do not even have a central bulge). Please refer to:
    Feng and Gallo, (2010), "Rotating thin-disk galaxies through the eyes of Newton", http://arxiv.org/abs/1007.3778
    
    The perceived requirement for galactic dark matter to explain their rotational characteristics very simply resulted from the misapplication of Kepler's equations describing specific characteristics of sparse planets independently orbiting the dominatingly massive Sun.
    
    It seems that cosmologists' theories, in particular, have more recently become nearly completely dependent on their estimate that there is six time more dark matter in the universe that ordinary matter: it may one day turn around and bite them...

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30. 30. HMMMM in reply to Nick 02:22 PM 11/3/11

    These gap filling dark matter equations seem to resemble another type of dark matter to me.... bovine fecal matter.

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31. 31. jtdwyer in reply to Nick 06:39 PM 11/3/11

    Nick,
    I'm sorry I'd overlooked your earlier comment, which as I understand is precisely correct.
    
    Please refer to my recent brief commentary, which includes some more recent research reports building on Nicholson's methods:
    "On not being the first to discover no galactic dark matter", http://www.sciencewithoutfiction.com/uploads/JDwyer.PDF
    
    Excellent comment!

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